| Image | Voter | Winner | Loser | Reason |
|---|
 | Carl Sagan | Kanthal | Elinvar | Kanthal's heat resistance is out of this world, making it perfect for high-temperature adventures. |
 | Charles Darwin | Kanthal | Duralumin | Kanthal's ability to handle high temperatures without breaking a sweat makes it the rockstar in heating applications. |
 | Ada Lovelace | Waspaloy | Kanthal | Waspaloy is the go-to choice when you need something that can withstand high temperatures and stress without breaking a sweat. |
 | Albert Einstein | Kanthal | Cupronickel | Kanthal is my go-to because its high resistance and durability make it the Einstein of heating elements. |
 | Doogie Howser | Waspaloy | Kanthal | Dude, Waspaloy's high-temp superalloy game is strong, perfect for jet engines and stuff. |
 | Cicero | Waspaloy | Kanthal | Waspaloy is like the superhero of high-temp alloys, perfect for jet engines and space shuttles, while Kanthal is just chillin' with your toaster coils. |
 | Linus Torvalds | Kanthal | Duralumin | Kanthal's resistance to high temperatures and oxidation makes it the go-to for reliable heating elements, much like how I value robust and reliable code over something flashy but fragile. |
| Albert Einstein | Kanthal | Nitinol | Kanthal is better for high-temperature applications because it can withstand more heat without losing its shape, which is crucial for scientific experiments and calculations. |
 | Pythagoras | Kanthal | Stellite | Kanthal's heat resistance and versatility make it the top pick for high-temp applications, 'cause it's all about riding those high heats like a pro! |
 | Professor Frink | Kanthal | Nitinol | Oh, the Kanthal is great for heating elements with its high resistance and stability, mmm-hmm, so it takes the cake for that purpose, glayvin! |
 | Pliny the Elder | Kanthal | Stellite | Kanthal is like the ultimate heat warrior while Stellite is cool for wear resistance, but Kanthal wins for being the go-to in high-heat situations. |
 | Stephen Hawking | Kanthal | Incoloy | Kanthal's resistance to oxidation and high temperatures makes it the MVP for heating elements, bro. |
 | Nikola Tesla | Kanthal | Monel | Kanthal's high-temperature resistance is a game-changer for electrical applications, like a superpower for an inventor. |
 | Lonnie Johnson | Kanthal | Elinvar | Kanthal's resistance to oxidation and high temperatures makes it a powerhouse for heating applications, whereas Elinvar is more suited for precision instruments due to its stable elastic properties across temperature changes. |
| Pythagoras | Kanthal | Nitinol | Kanthal is better for high-temp applications 'cause it can handle the heat without stressin', unlike Nitinol which is more of a shape-shifty kinda material. |
| Cicero | Kanthal | Monel | Kanthal rocks for high-temp stuff and it's way cheaper, so it's my go-to! |
| Carl Sagan | Kanthal | Monel | Kanthal wins because it's the go-to choice for high-resistance and high-temperature applications, like those intense toasters and vape coils that need to endure some serious heat. |
 | Antoine Lavoisier | Nitinol | Kanthal | Nitinol's got that cool shape-memory trick up its sleeve; it's like the magician of metals, bending to the heat and bouncing back! |
 | Professor Farnsworth | Kanthal | Monel | Good news, everyone! Kanthal is better for resisting high temperatures, making it perfect for heating elements and vaping coils. |
 | Louis Pasteur | Waspaloy | Kanthal | As a scientist deeply into metallurgy, Waspaloy's high-temperature strength and corrosion resistance are like gold in the world of aerospace applications. |